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Updated gen_blumen_lumen to be able to output both UART and SACN variants

This commit is contained in:
PS 2021-08-06 18:35:14 -05:00
parent f261cbd55a
commit 9a643cd5b6
2 changed files with 92 additions and 49 deletions
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23
src/sculpture_gen/gen_blumen_lumen.cpp
View File

@ -61,7 +61,10 @@ BuildLoop(gs_string* OutputBuffer, loop_desc Desc)
Channel = Desc.ChannelStart + i; Channel = Desc.ChannelStart + i;
} }
WriteLedStripOpen(OutputBuffer, Channel, Desc.ComPort); u32 SACNUniverseStart = 0;
u32 SACNChannelStart = 0;
WriteLedStripOpen(OutputBuffer, Channel, Desc.ComPort,
SACNUniverseStart, SACNChannelStart);
WriteSegmentSequenceOpen(OutputBuffer, Desc.SubsegmentsCount); WriteSegmentSequenceOpen(OutputBuffer, Desc.SubsegmentsCount);
for (u32 j = 0; j < Desc.SubsegmentsCount; j++) for (u32 j = 0; j < Desc.SubsegmentsCount; j++)
@ -184,6 +187,7 @@ int main(int ArgCount, char** Args)
gs_string OutputBuffer1 = PushString(Ctx.Transient, MB(4)); gs_string OutputBuffer1 = PushString(Ctx.Transient, MB(4));
gs_string OutputBuffer2 = PushString(Ctx.Transient, MB(4)); gs_string OutputBuffer2 = PushString(Ctx.Transient, MB(4));
#if 0
WriteAssemblyUARTOpen(&OutputBuffer0, WriteAssemblyUARTOpen(&OutputBuffer0,
"Blumen Lumen - Silver Spring - 00", "Blumen Lumen - Silver Spring - 00",
100, 100,
@ -202,6 +206,23 @@ int main(int ArgCount, char** Args)
v3{1, 0, 0}, v3{1, 0, 0},
21, 21,
""); "");
#else
WriteAssemblySACNOpen(&OutputBuffer0,
"Blumen Lumen - Silver Spring - 00",
100,
v3{-1, 0, 0},
21);
WriteAssemblySACNOpen(&OutputBuffer1,
"Blumen Lumen - Silver Spring - 01",
100,
v3{0, 0, 0},
21);
WriteAssemblySACNOpen(&OutputBuffer2,
"Blumen Lumen - Silver Spring - 02",
100,
v3{1, 0, 0},
21);
#endif
u32 StripCount = 0; u32 StripCount = 0;

118
src/sculpture_gen/sculpture_gen.h
View File

@ -8,87 +8,109 @@
internal void internal void
WriteIndented(gs_string* Buffer, u32 Indent, char* Format, ...) WriteIndented(gs_string* Buffer, u32 Indent, char* Format, ...)
{ {
va_list Args; va_list Args;
va_start(Args, Format); va_start(Args, Format);
for (u32 i = 0; i < Indent; i++) for (u32 i = 0; i < Indent; i++)
{ {
OutChar(Buffer, '\t'); OutChar(Buffer, '\t');
} }
PrintFArgsList(Buffer, Format, Args); PrintFArgsList(Buffer, Format, Args);
va_end(Args); va_end(Args);
}
internal void
WriteAssemblyCommonOpen(gs_string* Buffer, char* Name, u32 Scale, v3 Center, u32 StripCount)
{
WriteIndented(Buffer, 0, "assembly_name: \"%s\";\n", Name);
WriteIndented(Buffer, 0, "assembly_scale: %d;\n", Scale);
WriteIndented(Buffer, 0, "assembly_center: (%f, %f, %f);\n", Center.x, Center.y, Center.z);
WriteIndented(Buffer, 0, "led_strip_count: %d;\n", StripCount);
} }
internal void internal void
WriteAssemblyUARTOpen(gs_string* Buffer, char* Name, u32 Scale, v3 Center, u32 StripCount, char* ComPort) WriteAssemblyUARTOpen(gs_string* Buffer, char* Name, u32 Scale, v3 Center, u32 StripCount, char* ComPort)
{ {
WriteIndented(Buffer, 0, "assembly_name: \"%s\";\n", Name); WriteAssemblyCommonOpen(Buffer, Name, Scale, Center, StripCount);
WriteIndented(Buffer, 0, "assembly_scale: %d;\n", Scale); WriteIndented(Buffer, 0, "output_mode: \"UART\";\n");
WriteIndented(Buffer, 0, "assembly_center: (%f, %f, %f);\n", Center.x, Center.y, Center.z);
WriteIndented(Buffer, 0, "led_strip_count: %d;\n", StripCount); if (ComPort)
WriteIndented(Buffer, 0, "output_mode: \"UART\";\n"); {
WriteIndented(Buffer, 0, "com_port: \"%s\";\n", ComPort);
if (ComPort) }
{
WriteIndented(Buffer, 0, "com_port: \"%s\";\n", ComPort);
}
} }
internal void internal void
WriteLedStripOpen(gs_string* Buffer, u32 Channel, char* ComPort) WriteAssemblySACNOpen(gs_string* Buffer, char* Name, u32 Scale, v3 Center, u32 StripCount)
{ {
WriteIndented(Buffer, 0, "led_strip:\n{\n"); WriteAssemblyCommonOpen(Buffer, Name, Scale, Center, StripCount);
WriteIndented(Buffer, 1, "output_uart: {\n"); WriteIndented(Buffer, 0, "output_mode: \"SACN\";\n");
WriteIndented(Buffer, 2, "channel: %d;\n", Channel); }
WriteIndented(Buffer, 2, "com_port: \"%s\";\n", ComPort);
WriteIndented(Buffer, 1, "};\n\n"); internal void
WriteLedStripOpen(gs_string* Buffer, u32 UARTChannel, char* UARTComPort, u32 SACNStartUniverse, u32 SACNStartChannel)
{
WriteIndented(Buffer, 0, "led_strip:\n{\n");
// SACN
WriteIndented(Buffer, 1, "output_sacn: {\n");
WriteIndented(Buffer, 2, "start_universe: %d;\n", SACNStartUniverse);
WriteIndented(Buffer, 2, "start_channel: %d;\n", SACNStartChannel);
WriteIndented(Buffer, 1, "};\n\n");
// UART
WriteIndented(Buffer, 1, "output_uart: {\n");
WriteIndented(Buffer, 2, "channel: %d;\n", UARTChannel);
WriteIndented(Buffer, 2, "com_port: \"%s\";\n", UARTComPort);
WriteIndented(Buffer, 1, "};\n\n");
} }
internal void internal void
WriteSegmentSequenceOpen(gs_string* Buffer, u32 SegmentCount) WriteSegmentSequenceOpen(gs_string* Buffer, u32 SegmentCount)
{ {
WriteIndented(Buffer, 1, "segment: {\n"); WriteIndented(Buffer, 1, "segment: {\n");
WriteIndented(Buffer, 2, "point_placement_type: \"SegmentSequence\";\n"); WriteIndented(Buffer, 2, "point_placement_type: \"SegmentSequence\";\n");
WriteIndented(Buffer, 2, "segment_sequence:\n"); WriteIndented(Buffer, 2, "segment_sequence:\n");
WriteIndented(Buffer, 2, "{\n"); WriteIndented(Buffer, 2, "{\n");
WriteIndented(Buffer, 3, "segment_count: %d;\n", SegmentCount); WriteIndented(Buffer, 3, "segment_count: %d;\n", SegmentCount);
} }
internal void internal void
WriteSegmentSequenceSegment(gs_string* Buffer, v3 P0, v3 P1, u32 LedCount) WriteSegmentSequenceSegment(gs_string* Buffer, v3 P0, v3 P1, u32 LedCount)
{ {
WriteIndented(Buffer, 3, "segment: {\n"); WriteIndented(Buffer, 3, "segment: {\n");
WriteIndented(Buffer, 4, "point_placement_type: \"InterpolatePoints\";\n"); WriteIndented(Buffer, 4, "point_placement_type: \"InterpolatePoints\";\n");
WriteIndented(Buffer, 4, "interpolate_points: {\n"); WriteIndented(Buffer, 4, "interpolate_points: {\n");
WriteIndented(Buffer, 5, "start: (%f, %f, %f);\n", P0.x, P0.y, P0.z); WriteIndented(Buffer, 5, "start: (%f, %f, %f);\n", P0.x, P0.y, P0.z);
WriteIndented(Buffer, 5, "end: (%f, %f, %f);\n", P1.x, P1.y, P1.z); WriteIndented(Buffer, 5, "end: (%f, %f, %f);\n", P1.x, P1.y, P1.z);
WriteIndented(Buffer, 5, "led_count: %d;\n", LedCount); WriteIndented(Buffer, 5, "led_count: %d;\n", LedCount);
WriteIndented(Buffer, 4, "};\n"); WriteIndented(Buffer, 4, "};\n");
WriteIndented(Buffer, 3, "};\n"); WriteIndented(Buffer, 3, "};\n");
} }
internal void internal void
WriteSegmentSequenceClose(gs_string* Buffer) WriteSegmentSequenceClose(gs_string* Buffer)
{ {
WriteIndented(Buffer, 2, "};\n"); WriteIndented(Buffer, 2, "};\n");
WriteIndented(Buffer, 1, "};\n"); WriteIndented(Buffer, 1, "};\n");
} }
internal void internal void
WriteSegmentTagsOpen(gs_string* Buffer, u32 TagCount) WriteSegmentTagsOpen(gs_string* Buffer, u32 TagCount)
{ {
WriteIndented(Buffer, 1, "tags_count: %d;\n", TagCount); WriteIndented(Buffer, 1, "tags_count: %d;\n", TagCount);
} }
internal void internal void
WriteSegmentTag(gs_string* Buffer, char* TagName, char* TagValue) WriteSegmentTag(gs_string* Buffer, char* TagName, char* TagValue)
{ {
WriteIndented(Buffer, 1, "tag: {\n"); WriteIndented(Buffer, 1, "tag: {\n");
WriteIndented(Buffer, 2, "name: \"%s\";\n", TagName); WriteIndented(Buffer, 2, "name: \"%s\";\n", TagName);
WriteIndented(Buffer, 2, "value: \"%s\";\n", TagValue); WriteIndented(Buffer, 2, "value: \"%s\";\n", TagValue);
WriteIndented(Buffer, 1, "};\n"); WriteIndented(Buffer, 1, "};\n");
} }
internal void internal void
@ -99,7 +121,7 @@ WriteSegmentTagsClose(gs_string* Buffer)
internal void internal void
WriteLedStripClose(gs_string* Buffer) WriteLedStripClose(gs_string* Buffer)
{ {
WriteIndented(Buffer, 0, "};\n"); WriteIndented(Buffer, 0, "};\n");
} }
#define SCULPTURE_GEN_H #define SCULPTURE_GEN_H