30.5. Scaler IP Software API
Register definition header file: intel_vvp_scaler_regs.h
Include file: intel_vvp_scaler.h
Name | Description |
---|---|
intel_vvp_scaler_init | Initialize the Scaler instance |
Intel_vvp_core_* | .Accessors defined in Video and Vision Processing IPs Software Programming Model . Writable when Lite is on. Readable when Lite is off and Debug features is on. |
intel_vvp_scaler_get_lite_mode | Returns if Lite mode is on |
intel_vvp_scaler_get_debug_enabled | Returns if Debug features is on |
intel_vvp_scaler_get_pixels_in_parallel
|
Returns the number of pixels transmitted in parallel (per valid beat) |
intel_vvp_scaler_get_max_input_width
|
Returns the maximum input width supported |
intel_vvp_scaler_get_max_output_width
|
Returns the maximum output width supported |
intel_vvp_scaler_get_scaling_algorithm | Returns the scaling algorithm |
intel_vvp_scaler_is_coeffs_loading_enabled | Returns if the scaling coefficients can be loaded/updated at run-time |
intel_vvp_scaler_are_coeffs_preinitialized | Returns if the scaling coefficients are automatically initialized with default values out of reset |
intel_vvp_scaler_is_vertical_scaling_enabled | Returns if the IP can do vertical scaling |
Intel_vvp_scaler_is_partial_vertical_scaling_enabled | Returns if the IP can do split vertical scaling |
intel_vvp_scaler_get_num_vertical_taps | Returns the number of vertical taps |
intel_vvp_scaler_get_num_vertical_phases | Returns the number of vertical phases |
intel_vvp_scaler_get_num_vertical_banks | Returns the number of vertical banks |
intel_vvp_scaler_are_vertical_coeffs_signed | Returns if the vertical scaling coefficients have a sign bit and can be negative |
intel_vvp_scaler_get_vertical_coeffs_int_bits
|
Returns the number of integer bits (excluding sign bit) available to quantize the vertical scaling coefficients |
intel_vvp_scaler_get_vertical_coeffs_frac_bits
|
Returns the number of fractional bits available to quantize the vertical scaling coefficients |
intel_vvp_scaler_is_horizontal_scaling_enabled | Returns if the IP can do horizontal scaling |
intel_vvp_scaler_is_partial_horizontal_scaling_enabled | Returns if the IP can do split horizontal scaling |
intel_vvp_scaler_get_num_horizontal_taps | Returns the number of horizontal taps |
intel_vvp_scaler_get_num_horizontal_phases | Returns the number of horizontal phases |
intel_vvp_scaler_get_num_horizontal_banks | Returns the number of horizontal banks |
intel_vvp_scaler_are_ horizontal_coeffs_signed | Returns if the horizontal scaling coefficients have a sign bit and can be negative |
intel_vvp_scaler_get_ horizontal_coeffs_int_bits
|
Returns the number of integer bits (excluding sign bit) available to quantize the horizontal scaling coefficients |
intel_vvp_scaler_get_ horizontal_coeffs_frac_bits
|
Returns the number of fractional bits available to quantize the horizontal scaling coefficients |
intel_vvp_scaler_get_rounding_method | Returns the method used to convert floating-point values back to integer values at the output of the IP |
intel_vvp_scaler_is_running | Returns if the IP is currently processing video data |
intel_vvp_scaler_get_commit_status | Returns if there are uncommitted writes |
intel_vvp_scaler_get_status | Reads the status register |
intel_vvp_scaler_set_output_width | Selects the output width |
intel_vvp_scaler_set_total_input_width | Selects the full image input width (split scaling only) |
intel_vvp_scaler_set_total_output_width | Selects the full image output width (split scaling only) |
intel_vvp_scaler_set_output_height | Selects the output height |
intel_vvp_scaler_set_total_input_height | Selects the full image input height (split scaling only) |
intel_vvp_scaler_set_total_output_height | Selects the full image output height (split scaling only) |
intel_vvp_scaler_set_h_pos_error | Selects the horizontal offset error (split scaling only) |
intel_vvp_scaler_set_v_pos_error | Selects the vertical offset error (split scaling only) |
intel_vvp_scaler_set_h_extended_fill | Enables horizontal split extension (split scaling only) |
intel_vvp_scaler_set_v_extended_fill | Enables vertical split extension (split scaling only) |
intel_vvp_scaler_set_h_phase_offset_error | Selects the horizontal phase offset (split scaling only) |
intel_vvp_scaler_set_v_phase_offset_error | Selects the vertical phase offset (split scaling only) |
intel_vvp_scaler_set_split_h_scaling | Setup the scaler for a horizontal split scaling |
intel_vvp_scaler_set_split_v_scaling | Setup the scaler for a vertical split scaling |
intel_vvp_scaler_set_v_bank | Selects the vertical coefficients bank for the next commit |
intel_vvp_scaler_set_h_bank | Selects the horizontal coefficients bank for the next commit |
intel_vvp_scaler_get_output_width | Returns the last selected output width |
intel_vvp_scaler_get_total_input_width | Returns the last selected full image input width (split scaling) |
intel_vvp_scaler_get_total_output_width | Returns the last selected full image output width (split scaling) |
intel_vvp_scaler_get_output_height | Returns the last selected output height |
intel_vvp_scaler_get_total_input_height | Returns the last selected full image input height (split scaling) |
intel_vvp_scaler_get_total_output_height | Returns the last selected full image output height (split scaling) |
intel_vvp_scaler_get_h_pos_error | Returns the last selected horizontal offset error (split scaling) |
intel_vvp_scaler_get_v_pos_error | Returns the last selected vertical offset error (split scaling) |
intel_vvp_scaler_get_h_extended_fill | Returns if horizontal split extension is enabled (split scaling only) |
intel_vvp_scaler_get_v_extended_fill | Returns if vertical split extension is enabled (split scaling only) |
intel_vvp_scaler_get_ h_phase_offset_error | Returns the last selected horizontal phase offset and error (split scaling) |
intel_vvp_scaler_get_ v_phase_offset_error | Returns the last selected vertical phase offset and error (split scaling) |
intel_vvp_scaler_get_v_bank | Returns the last selected vertical coefficients bank |
intel_vvp_scaler_get_h_bank | Returns the last selected horizontal coefficients bank |
intel_vvp_scaler_set_quantized_coeffs | Program the IP with a new set of quantized coefficients for a specified phase |
intel_vvp_scaler_set_coeffs | Program the IP with a new set of floating-point coefficients for a specified phase |
intel_vvp_scaler_commit_writes | Commit all outstanding writes |
enum eIntelVvpScalerAlgorithms
- Members
-
kIntelVvpScalerNearestNeighborScaling (0) – Nearest neighbor scaling
kIntelVvpScalerBilinearScaling (1) – Bilinear scaling
kIntelVvpScalerPolyphaseScaling (2) – Polyphase scaling
kIntelVvpScalerInvalidScalingAlgo (-1) – Invalid scaling algorithm (used to indicate errors)
- Description
-
Enumeration for the configurable scaling algorithms
intel_vvp_scaler_init
- Prototype
-
int intel_vvp_scaler_init(intel_vvp_scaler_instance *instance, intel_vvp_core_base base);
- Description
-
Initializes a Scaler instance. The initialization stops early if the vendor ID or product ID read at the base address are not a match or if the register map version is not supported. Otherwise, the function proceeds to read and store the IP compile-time parameterization. The instance is not fully initialized and the application should not use it further if returning a non-zero error code.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
base – base address of the register map
- Returns
-
kIntelVvpCoreOk (0) in case of success, a negative error code in case of error
kIntelVvpCoreVidErr if the vendor id of the core is not the IntelFPGA vendor ID (0x6AF7).
kIntelVvpCorePidErr if the product_id does not match with the Scaler product ID
kIntelVvpCoreInstanceErr if the instance is a null pointer
kIntelVvpScalerMapVersionErr if the register map is not supported
intel_vvp_scaler_get_lite_mode
- Prototype
-
bool intel_vvp_scaler_get_lite_mode(intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the LITE_MODE register. The instance must be a valid intel_vvp_scaler_instance fully initialized
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
true if the IP is parameterized in lite mode
intel_vvp_scaler_get_debug_enabled
- Prototype
-
bool intel_vvp_scaler_get_debug_enabled(intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the DEBUG_ENABLED register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
true if the IP is parameterized with debug features enabled
intel_vvp_scaler_get_pixels_in_parallel
- Prototype
-
uint8_t intel_vvp_scaler_get_pixels_in_parallel(intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the PIXELS_IN_PARALLEL register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the pixel in parallel parameter (pixels transmitted per beat/clock cycle) used to generate the IP.
intel_vvp_scaler_get_max_input_width
- Prototype
-
uint32_t intel_vvp_scaler_get_max_input_width(intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the MAX_INPUT_WIDTH register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the maximum input width supported by the IP
intel_vvp_scaler_get_max_output_width
- Prototype
-
uint32_t intel_vvp_scaler_get_max_output_width(intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the MAX_OUTPUT_WIDTH register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the maximum output width supported by the IP
intel_vvp_scaler_get_scaling_algorithm
- Prototype
-
eIntelVvpScalerAlgorithms intel_vvp_scaler_get_scaling_algorithm(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the SCALER_ALGORITHM register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The scaling algorithm the IP is configured with
intel_vvp_scaler_is_coeffs_loading_enabled
- Prototype
-
bool intel_vvp_scaler_is_coeffs_loading_enabled(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the COEFFS_RUNTIME_LOAD register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to support run-time reloading of coefficients
intel_vvp_scaler_are_coeffs_preinitialized
- Prototype
-
bool intel_vvp_scaler_are_coeffs_preinitialized(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the COEFFS_MEM_INIT register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to start with initialized coefficients
intel_vvp_scaler_is_vertical_scaling_enabled
- Prototype
-
bool intel_vvp_scaler_is_vertical_scaling_enabled (intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_SCALING_ENABLED register. The instance must be a valid intel_vvp_scaler_instance fully initialized
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to perform vertical scaling
intel_vvp_scaler_is_partial_vertical_scaling_enabled
- Prototype
-
bool intel_vvp_scaler_is_partial_vertical_scaling_enabled (intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_PARTIAL_SCALING_ENABLED register. The instance must be a valid intel_vvp_scaler_instance fully initialized
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to perform split vertical scaling
intel_vvp_scaler_get_num_vertical_taps
- Prototype
-
uint8_t intel_vvp_scaler_get_num_vertical_taps(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_NUM_TAPS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of taps used for vertical scaling
intel_vvp_scaler_get_num_vertical_phases
- Prototype
-
uint16_t intel_vvp_scaler_get_num_vertical_phases(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_NUM_PHASES register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of taps used for vertical scaling
intel_vvp_scaler_get_num_vertical_banks
- Prototype
-
uint8_t intel_vvp_scaler_get_num_vertical_banks(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_NUM_BANKS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of coefficient banks available for vertical scaling
intel_vvp_scaler_are_vertical_coeffs_signed
- Prototype
-
bool intel_vvp_scaler_are_coeffs_signed(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the V_COEFFS_SIGNED register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If signed coefficients have been enabled for vertical scaling at IP generation time
intel_vvp_scaler_get_vertical_coeffs_int_bits
- Prototype
-
uint8_t intel_vvp_scaler_get_coeffs_int_bits (intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the V_COEFFS_INT_BITS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the number of integer bits, excluding sign bit, set at IP generation time to parameterize the quantization of the vertical scaling coefficients
intel_vvp_scaler_get_vertical_coeffs_frac_bits
- Prototype
-
uint8_t intel_vvp_scaler_get_vertical_coeffs_frac_bits (intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the V_COEFFS_FRAC_BITS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the number of fractional bits set at IP generation time to parameterize the quantization of the vertical scaling coefficients
intel_vvp_scaler_is_horizontal_scaling_enabled
- Prototype
-
bool intel_vvp_scaler_is_horizontal_scaling_enabled (intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_SCALING_ENABLED register. The instance must be a valid intel_vvp_scaler_instance fully initialized
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to perform horizontal scaling
intel_vvp_scaler_is_partial_horizontal_scaling_enabled
- Prototype
-
bool intel_vvp_scaler_is_partial_horizontal_scaling_enabled (intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_PARTIAL_SCALING_ENABLED register. The instance must be a valid intel_vvp_scaler_instance fully initialized
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If the IP is configured to perform split horizontal scaling
intel_vvp_scaler_get_num_horizontal_taps
- Prototype
-
uint8_t intel_vvp_scaler_get_num_horizontal_taps(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_NUM_TAPS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of taps used for horizontal scaling
intel_vvp_scaler_get_num_horizontal_phases
- Prototype
-
uint16_t intel_vvp_scaler_get_num_horizontal_phases(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_NUM_PHASES register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of taps used for horizontal scaling
intel_vvp_scaler_get_num_horizontal_banks
- Prototype
-
uint8_t intel_vvp_scaler_get_num_horizontal_banks(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_NUM_BANKS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The number of coefficient banks available for horizontal scaling
intel_vvp_scaler_are_horizontal_coeffs_signed
- Prototype
-
bool intel_vvp_scaler_are_coeffs_signed(intel_vvp_scaler_instance* instance);
- Description
-
Returns the value of the H_COEFFS_SIGNED register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
If signed coefficients have been enabled for horizontal scaling at IP generation time
intel_vvp_scaler_get_horizontal_coeffs_int_bits
- Prototype
-
uint8_t intel_vvp_scaler_get_coeffs_int_bits (intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the H_COEFFS_INT_BITS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the number of integer bits, excluding sign bit, set at IP generation time to parameterize the quantization of the horizontal scaling coefficients
intel_vvp_scaler_get_horizontal_coeffs_frac_bits
- Prototype
-
uint8_t intel_vvp_scaler_get_horizontal_coeffs_frac_bits (intel_vvp_scaler_instance *instance);
- Description
-
Returns the value of the H_COEFFS_FRAC_BITS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal polyphase scaling
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the number of fractional bits set at IP generation time to parameterize the quantization of the horizontal scaling coefficients
intel_vvp_scaler_is_running
- Prototype
-
bool intel_vvp_scaler_is_running(intel_vvp_scaler_instance* instance);
- Description
-
Reads and returns the running bit of the STATUS register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
True is the IP is currently receiving/storing an input field, false when between two input fields
intel_vvp_scaler_get_commit_status
- Prototype
-
bool intel_vvp_scaler_get_commit_status(intel_vvp_scaler_instance* instance);
- Description
-
Reads and returns the commit pending bit of the STATUS register. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured in full mode.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
True is the IP is configured in full mode and if the agent interface contains uncommitted writes.
intel_vvp_scaler_get_status
- Prototype
-
uint32_t intel_vvp_scaler_get_status(intel_vvp_scaler_instance* instance);
- Description
-
Reads the STATUS register. The instance must be a valid intel_vvp_scaler_instance fully initialized.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
The content of the STATUS register
intel_vvp_scaler_set_output_width
- Prototype
-
int intel_vvp_scaler_set_output_width(intel_vvp_scaler_instance *instance, uint32_t output_width)
- Description
-
Selects the new output width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal scaling. Also, the output width must be within the allowed range.
If split horizontal scaling is enabled, consider using intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
output_width – new output width in the range [1..max_h_width-1] where max_h_width is the maximum configured output_width returned by intel_vvp_scaler_get_max_output_width
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for horizontal scaling
kIntelVvpScalerParameterErr if the new output width is out-of-range
intel_vvp_scaler_set_total_input_width
- Prototype
-
int intel_vvp_scaler_set_total_input_width(intel_vvp_scaler_instance *instance, uint32_t total_input_width)
- Description
-
Selects the new total input width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Consider using intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_input_width – new width of the full input image
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
kIntelVvpScalerParameterErr if the new input width is invalid
intel_vvp_scaler_set_total_output_width
- Prototype
-
int intel_vvp_scaler_set_total_output_width(intel_vvp_scaler_instance *instance, uint32_t total_output_width)
- Description
-
Selects the new total output width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Consider using intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_output_width – new width of the full output image
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
kIntelVvpScalerParameterErr if the new output width is invalid
intel_vvp_scaler_set_output_height
- Prototype
-
int intel_vvp_scaler_set_output_height(intel_vvp_scaler_instance *instance, uint32_t output_height)
- Description
-
Selects the new output height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical scaling. If split vertical scaling is enabled, consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
output_height – new output height
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for vertical scaling
kIntelVvpScalerParameterErr if the new output height is invalid
intel_vvp_scaler_set_total_input_height
- Prototype
-
int intel_vvp_scaler_set_total_input_height(intel_vvp_scaler_instance *instance, uint32_t total_input_height)
- Description
-
Selects the new total input height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_input_height – new height of the full input image
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
kIntelVvpScalerParameterErr if the new input height is invalid
intel_vvp_scaler_set_total_output_height
- Prototype
-
int intel_vvp_scaler_set_total_output_height(intel_vvp_scaler_instance *instance, uint32_t total_output_height)
- Description
-
Selects the new total output height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_output_height – new height of the full output image
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
kIntelVvpScalerParameterErr if the new output height is invalid
intel_vvp_scaler_set_h_pos_error
- Prototype
-
int intel_vvp_scaler_set_h_pos_error(intel_vvp_scaler_instance *instance, uint32_t h_pos_error)
- Description
-
Selects the new horizontal position error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Consider using intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
h_pos_error – new horizontal position error
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
intel_vvp_scaler_set_v_pos_error
- Prototype
-
int intel_vvp_scaler_set_v_pos_error(intel_vvp_scaler_instance *instance, uint32_t v_pos_error)
- Description
-
Selects the new vertical position error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
v_pos_error – new vertical position error
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
intel_vvp_scaler_set_h_extended_fill
- Prototype
-
int intel_vvp_scaler_set_h_extended_fill(intel_vvp_scaler_instance *instance, bool extended_fill)
- Description
-
Enables horizontal extension for split scaling. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Consider using
intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
extended_fill – if horizontal split extension is enabled
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
intel_vvp_scaler_set_v_extended_fill
- Prototype
-
int intel_vvp_scaler_set_v_extended_fill(intel_vvp_scaler_instance *instance, bool extended_fill)
- Description
-
Enables vertical extension for split scaling. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
extended_fill – if vertical split extension is enabled
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
intel_vvp_scaler_set_h_phase_offset_error
- Prototype
-
int intel_vvp_scaler_set_h_phase_offset_error(intel_vvp_scaler_instance *instance, uint32_t phase_offset, uint32_t phase_error);
- Description
-
Sets the phase offset and phase offset error for split horizontal scaling. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Consider using intel_vvp_scaler_set_split_h_scaling to set up the scaler for split horizontal scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
phase_offset – new phase offset
phase_error – new phase offset error
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
intel_vvp_scaler_set_v_phase_offset_error
- Prototype
-
int intel_vvp_scaler_set_v_phase_offset_error(intel_vvp_scaler_instance *instance, uint32_t phase_offset, uint32_t phase_error);
- Description
-
Sets the phase offset and phase offset error for split vertical scaling. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Consider using intel_vvp_scaler_set_split_v_scaling to set up the scaler for split vertical scaling rather than modifying individual registers manually.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
phase_offset – new phase offset
phase_error – new phase offset error
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
intel_vvp_scaler_set_split_h_scaling
- Prototype
-
int intel_vvp_scaler_set_split_h_scaling(intel_vvp_scaler_instance *instance, uint32_t total_input_width, uint32_t total_output_width, uint32_t split_output_width, uint32_t split_output_left_offset, bool extended_fill, uint32_t *split_input_width, uint32_t *split_input_left_offset);
- Description
-
This function sets the scaler for split horizontal scaling. Specify the full width of the input image, the full width of the desired output image and the required offset/width of the output split to set up the scaler to generate the given output band. Optionally, the function returns the offset and width of the corresponding band in the input image. This should be used to configure the upstream video processing pipeline and stream the correct video portion into the scaler. This call does not update the input width image info register in Lite mode. intel_vvp_core_set_img_info_width should still be called, presumably using the split_input_width value returned here as a parameter.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_input_width – new width of the full input image
total_output_width – new width of the full output image
split_output_width – width of the scaled split (at the output)
split_output_left_offset – left offset of the scaled split (at the output)
extended_fill – if the input split should contain extra columns of pixels on the left and/or right to ensure the output splits can be stitched with a joint that is not noticeable
split_input_width – the recommended width for the input split. The value is computed and returned by this call (optional, may be NULL)
split_input_left_offset – the recommended left offset for the input split respective to the full input image. The value is computed and returned by this call (optional, may be NULL)
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split horizontal scaling
kIntelVvpScalerParameterErr, if one of the dimensions is invalid or if the split output width is larger than allowed by the configuration.
kIntelVvpScalerParameterErr, if the width and left offset of the output split go out-of-range compared to the total output width
kIntelVvpScalerParameterErr, if the split_input_width value computed during the call is larger than allowed by the configuration. Note that this value is computed last and the scaler is still reprogrammed in this case.
intel_vvp_scaler_set_split_v_scaling
- Prototype
-
int intel_vvp_scaler_set_split_v_scaling(intel_vvp_scaler_instance *instance, uint32_t total_input_height, uint32_t total_output_height, uint32_t split_output_height, uint32_t split_output_top_offset, bool extended_fill, uint32_t *split_input_height, uint32_t *split_input_top_offset);
- Description
-
Description This function sets the scaler for split vertical scaling. Specify the full height of the input image, the full height of the desired output image and the required offset/height of the output split to set up the scaler to generate the given output band. Optionally, the function returns the offset and height of the corresponding band in the input image. This should be used to configure the upstream video processing pipeline and stream the correct video portion into the scaler. This call does not update the input height image info register in Lite mode. intel_vvp_core_set_img_info_height should still be called, presumably using the split_input_height value returned here as a parameter.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
total_input_height – new height of the full input image
total_output_height – new height of the full output image
split_output_height – height of the scaled split (at the output)
split_output_top_offset – top offset of the scaled split (at the output)
extended_fill – if the input split should contain extra lines on the top and/or bottom to ensure the output splits can be stitched with a joint that is not noticeable
split_input_height – the recommended height for the input split. The value is computed and returned by this call (optional, may be NULL)
split_input_top_offset – the recommended top offset for the input split respective to the full input image. The value is computed and returned by this call (optional, may be NULL)
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for split vertical scaling
kIntelVvpScalerParameterErr, if one of the dimensions is invalid
kIntelVvpScalerParameterErr, if the height and top offset of the output split go out-of-range compared to the total output height
intel_vvp_scaler_set_v_bank
- Prototype
-
int intel_vvp_scaler_set_v_bank(intel_vvp_scaler_instance *instance, uint8_t bank);
- Description
-
Selects the bank of vertical scaler coefficient to use. The instance must be a valid intel_vvp_scaler_instance, fully initialized, and configured for vertical polyphase scaling. Also, the bank of vertical coefficient should be valid
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
bank – the identifier for the horizontal bank in the range [0..num_v_banks-1] where v_num_banks is the value returned by intel_vvp_scaler_get_num_vertical_banks
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for vertical polyphase scaling
kIntelVvpScalerParameterErr if the vertical bank is invalid
intel_vvp_scaler_set_h_bank
- Prototype
-
int intel_vvp_scaler_set_h_bank(intel_vvp_scaler_instance *instance, uint8_t bank);
- Description
-
Selects the bank of horizontal scaler coefficient to use. The instance must be a valid intel_vvp_scaler_instance, fully initialized, and configured for horizontal polyphase scaling. Also, the bank of horizontal coefficient should be valid
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
bank – the identifier for the horizontal bank in the range [0..num_h_banks-1] where h_num_banks is the value returned by intel_vvp_scaler_get_num_horizontal_banks
- Returns
-
kIntelVvpCoreOk for success, negative error code in case of failures
kIntelVvpCoreInstanceErr if the instance is invalid or not configured for horizontal polyphase scaling
kIntelVvpScalerParameterErr if the horizontal bank is invalid
intel_vvp_scaler_get_output_width
- Prototype
-
uint32_t intel_vvp_scaler_get_output_width(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected output width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for horizontal scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected output width
intel_vvp_scaler_get_total_input_width
- Prototype
-
uint32_t intel_vvp_scaler_get_total_input_width(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected total input width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected total input width for the full image
intel_vvp_scaler_get_total_output_width
- Prototype
-
uint32_t intel_vvp_scaler_get_total_output_width(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected total output width. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected total output width for the full image
intel_vvp_scaler_get_output_height
- Prototype
-
uint32_t intel_vvp_scaler_get_output_height(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected output height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for vertical scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected output height
intel_vvp_scaler_get_total_input_height
- Prototype
-
uint32_t intel_vvp_scaler_get_total_input_height(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected total input height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected total input height for the full image
intel_vvp_scaler_get_total_output_height
- Prototype
-
uint32_t intel_vvp_scaler_get_total_output_height (intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected total output height. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected total output height for the full image
intel_vvp_scaler_get_h_pos_error
- Prototype
-
uint32_t intel_vvp_scaler_get_h_pos_error(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected horizontal position error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected horizontal position error for the full image
intel_vvp_scaler_get_v_pos_error
- Prototype
-
uint32_t intel_vvp_scaler_get_v_pos_error(intel_vvp_scaler_instance *instance)
- Description
-
Returns the selected vertical position error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected vertical position error for the full image
intel_vvp_scaler_get_h_extended_fill
- Prototype
-
bool intel_vvp_scaler_get_h_extended_fill(intel_vvp_scaler_instance *instance)
- Description
-
Returns if horizontal extended fill is enabled. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
if horizontal extended fill is assumed
intel_vvp_scaler_get_v_extended_fill
- Prototype
-
bool intel_vvp_scaler_get_v_extended_fill(intel_vvp_scaler_instance *instance)
- Description
-
Returns if vertical extended fill is enabled. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split vertical scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
if vertical extended fill is assumed
intel_vvp_scaler_get_h_phase_offset_error
- Prototype
-
int intel_vvp_scaler_get_h_phase_offset_error(intel_vvp_scaler_instance *instance, uint32_t *phase_offset, uint32_t *phase_error)
- Description
-
Returns the selected horizontal phase offset and phase offset error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal polyphase scaling. Also, debug should be enabled to read sensible values back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
kIntelVvpCoreOk in case of success, negative error code otherwise
kIntelVvpCoreInstanceErr if the instance is invalid, or not configured for horizontal split scaling with polyphase scaling algorithm
kIntelVvpCoreNullPtrErr if phase_offset or phase_error are NULL pointers
intel_vvp_scaler_get_ v_phase_offset_error
- Prototype
-
int intel_vvp_scaler_get_v_phase_offset_error(intel_vvp_scaler_instance *instance, uint32_t *phase_offset, uint32_t *phase_error)
- Description
-
Returns the selected vertical phase offset and phase offset error. The instance must be a valid intel_vvp_scaler_instance fully initialized and configured for split horizontal polyphase scaling. Also, debug should be enabled to read a sensible value back
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
kIntelVvpCoreOk in case of success, negative error code otherwise
kIntelVvpCoreInstanceErr if the instance is invalid, or not configured for vertical split scaling with polyphase scaling algorithm
kIntelVvpCoreNullPtrErr if phase_offset or phase_error are NULL pointers
intel_vvp_scaler_get_v_bank
- Prototype
-
uint8_t intel_vvp_scaler_get_v_bank(intel_vvp_scaler_instance *instance);
- Description
-
Returns the selected bank of vertical scaling coefficient. The instance must be a valid intel_vvp_scaler_instance, fully initialized, and configured for vertical polyphase scaling. Also, debug must be enabled to read a sensible value back.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected vertical bank
intel_vvp_scaler_get_h_bank
- Prototype
-
uint8_t intel_vvp_scaler_get_h_bank(intel_vvp_scaler_instance *instance);
- Description
-
Returns the selected bank of horizontal scaling coefficient. The instance must be a valid intel_vvp_scaler_instance, fully initialized, and configured for horizontal polyphase scaling. Also, debug must be enabled to read a sensible value back.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
the selected horizontal bank
intel_vvp_scaler_set_quantized_coeffs
- Prototype
-
int intel_vvp_scaler_set_quantized_coeffs(intel_vvp_scaler_instance* instance, bool h_coeffs, const int32_t* quantized_coeffs, uint8_t num_coeffs, uint8_t bank, uint8_t phase);
- Description
-
Programs the IP with a new set of num_coeffs coefficients for the specified horizontal or vertical phase in the specified bank of coefficients. An error is returned if the IP is not properly configured to use these coefficients. The num_coeffs parameter indicates the guaranteed minimum size of the quantized_coeffs array and must match with the number of horizontal or vertical taps as appropriate. Also, the call checks for correctness of the quantized values and returns an error if invalid bits are set. Sign extension to the full 32 bit range is accepted. Quantization errors do not prevent the coefficients from being updated
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
h_coeffs – true if committing a set of horizontal coefficients, false for a set of vertical coefficients
quantized_coeffs – pointer to the structure containing the quantized coefficients
num_coeffs – the number of horizontal taps if h_coeffs is true, otherwise the number of vertical taps. The caller guarantees that the quantized_coeffs array is larger than the specified number of values
bank – the bank of coefficients used to commit the new set
phase – the phase for the set of new coefficients
- Returns
-
kIntelVvpCoreOk in case of success, negative error code otherwise
kIntelVvpCoreInstanceErr if the instance is invalid, or not configured for horizontal/vertical polyphase scaling and run-time loading of coefficients
kIntelVvpScalerParameterErr if the phase, bank or number of coefficients are invalid for the IP configuration
kIntelVvpCoreNullPtrErr if quantized_coeffs is a NULL pointer
kIntelVvpScalerQuantizationErr if the quantized coefficients are out-of-range (this does not prevent the coefficients update)
intel_vvp_scaler_set_coeffs
- Prototype
-
int intel_vvp_scaler_set_coeffs(intel_vvp_scaler_instance* instance, bool h_coeffs, const float* quantized_coeffs, uint8_t num_coeffs, uint8_t bank, uint8_t phase);
- Description
-
Programs the IP with a new set of num_coeffs coefficients for the specified horizontal or vertical phase in the specified bank of coefficients. Coefficients are quantized using the fixed-point configuration reported by the IP. An error is returned if the IP is not properly configured to use these coefficients. The num_coeffs parameter indicates the guaranteed minimum size of the coeffs array and must match with the number of horizontal or vertical taps as appropriate. An error is returned if the quantization could not be achieved successfully.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
h_coeffs – true if committing a set of horizontal coefficients, false for a set of vertical coefficients
coeffs – pointer to the structure containing the set of floating-point coefficients
num_coeffs – the number of horizontal taps if h_coeffs is true, otherwise the number of vertical taps. The caller guarantees that the quantized_coeffs array is larger than the specified number of values
bank – the bank of coefficients used to commit the new set
phase – the phase for the set of new coefficients
- Returns
-
kIntelVvpCoreOk in case of success, negative error code otherwise
kIntelVvpCoreInstanceErr if the instance is invalid, or not configured for horizontal/vertical polyphase scaling and run-time loading of coefficients
kIntelVvpScalerParameterErr if the phase, bank or number of coefficients are invalid for the IP configuration
kIntelVvpCoreNullPtrErr if quantized_coeffs is a NULL pointer
kIntelVvpScalerQuantizationErr if the quantized coefficients are out-of-range for the quantization constraints (which does not prevent the coefficients update)
intel_vvp_scaler_commit_writes
- Prototype
-
int intel_vvp_scaler_commit_writes(intel_vvp_scaler_instance* instance)
- Description
-
Commits all pending writes before processing the next field. The instance must be valid and parameterized in full mode.
- Arguments
-
instance – pointer to the intel_vvp_scaler_instance software driver instance structure
- Returns
-
kIntelVvpCoreOk (0) for success, negative error code otherwise